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One of the most common use cases for a browser add-on is to modify a web page. For example, an add-on might want to change the style applied to a page, hide particular DOM nodes, or inject extra DOM nodes into the page.
There are two ways to do this with WebExtensions:
- Declaratively: Define a pattern than matches a set of URLs, and load a set of scripts into pages whose URL matches that pattern.
- Programmatically: Using a JavaScript API, load a script into the page hosted by a particular tab.
Either way, these scripts are called content scripts, and are different from the other scripts that make up a WebExtension:
- They only get access to a small subset of the WebExtension APIs.
- They get direct access to the web page in which they are loaded.
- They communicate with the rest of the WebExtension using a messaging API.
In this article we'll look at both methods of loading a script.
Modifying pages that match a URL pattern
First of all, create a new directory called "modify-page". In that directory, create a file called "manifest.json", with the following contents:
{ "manifest_version": 2, "name": "modify-page", "version": "1.0", "content_scripts": [ { "matches": ["https://addons.mozilla.org/*"], "js": ["page-eater.js"] } ] }
The content_scripts
key is how you load scripts into pages that match URL patterns. In this case, content_scripts
instructs the browser to load a script called "page-eater.js" into all pages under https://addons.mozilla.org/.
Since the "js"
property of content_scripts
is an array, you can use it to inject more than one script into matching pages. If you do this the pages share the same scope, just like multiple scripts loaded by a page, and they are loaded in the order that they are listed in the array.
The content_scripts
key also has a "css"
property that you can use to inject CSS stylesheets.
Next, create a file called "page-eater.js" inside the "modify-page" directory, and give it the following contents:
document.body.textContent = ""; var header = document.createElement('h1'); header.textContent = "This page has been eaten"; document.body.appendChild(header);
Now install the WebExtension, and visit https://addons.mozilla.org/:
Modifying pages programmatically
What if you still want to eat pages, but only when the user asks you to? Let's update this example so we inject the content script when the user clicks a context menu item.
First, update "manifest.json" so it has the following contents:
{ "manifest_version": 2, "name": "modify-page", "version": "1.0", "permissions": [ "activeTab", "contextMenus" ], "background": { "scripts": ["background.js"] } }
Here, we've removed the content_scripts
key, and added two new keys:
permissions
: To inject scripts into pages we need permissions for the page we're modifying. TheactiveTab
permission is a way to get this temporarily for the currently active tab. We also need thecontextMenus
permission to be able to add context menu items.background
: We're using this to load a persistent "background script" called "background.js", in which we'll set up the context menu and inject the content script.
Let's create this file. Create a new file called "background.js" in the "modify-page" directory, and give it the following contents:
chrome.contextMenus.create({ id: "eat-page", title: "Eat this page" }); chrome.contextMenus.onClicked.addListener(function(info, tab) { if (info.menuItemId == "eat-page") { chrome.tabs.executeScript({ file: "page-eater.js" }); } });
In this script we're creating a context menu item, giving it a specific id and title (the text to be displayed in the context menu). Then we set up an event listener so that when the user clicks a context menu item, we check to see if it is our eat-page
item. If it is, we inject "page-eater.js" into the current tab using the tabs.executeScript()
API. This API optionally takes a tab ID as an argument: we've omitted the tab ID, which means that the script is injected into the currently active tab.
At this point the add-on should look like this:
modify-page/
background.js
manifest.json
page-eater.js
Now reload the WebExtension, open a page (any page, this time) activate the context menu, and select "Eat this page":
Messaging
Content scripts and background scripts can't directly access each other's state. However, they can communicate by sending messages. One end sets up a message listener, and the other end can then send it a message. The following table summarises the APIs involved on each side:
In content script | In background script | |
---|---|---|
Send a message | chrome.runtime.sendMessage() |
chrome.tabs.sendMessage() |
Receive a message | chrome.runtime.onMessage |
chrome.runtime.onMessage |
Let's update our example to show how to send a message from the background script.
First, edit "background.js" so that it has these contents:
chrome.contextMenus.create({ id: "eat-page", title: "Eat this page" }); chrome.contextMenus.onClicked.addListener(function(info, tab) { if (info.menuItemId == "eat-page") { chrome.tabs.executeScript({ file: "page-eater.js" }); chrome.tabs.query({active: true, currentWindow: true}, function(tabs) { chrome.tabs.sendMessage(tabs[0].id, { replacement: "Message from the add-on!" }); }); } });
Now, after injecting "page-eater.js", we use tabs.query()
to get the currently active tab, and then use tabs.sendMessage()
to send a message to the content scripts loaded into that tab. The message has the payload {replacement: "Message from the add-on!"}
.
Next, update "page-eater.js" like this:
function eatPage(request, sender, sendResponse) { document.body.textContent = ""; var header = document.createElement('h1'); header.textContent = request.replacement; document.body.appendChild(header); } chrome.runtime.onMessage.addListener(eatPage);
Now instead of just eating the page right away, the content script listens for a message using runtime.onMessage
. When a message arrives, the content script runs essentially the same code as before, except that the replacement text is taken from request.replacement
.
If we wanted to send messages back from the content script to the background page, the setup would be the reverse of this example, except we would use runtime.sendMessage()
in the content script.
These examples all inject JavaScript; you can also inject CSS programmatically using the tabs.insertCSS()
function.
Learn more
- Content scripts guide
content_scripts
manifest keypermissions
manifest keytabs.executeScript()
tabs.insertCSS()
tabs.sendMessage()
runtime.sendMessage()
runtime.onMessage
- Examples using
content_scripts
: - Examples using
tabs.executeScript()
: